TONAL STANDARD HOSE COUPLINGS AND FITTINGS
FOR PUBLIC FIRE SERVICE
DEPARTMENT OF COMMERCE
CircularOF THE
Bureau of StandardsS. W. STRATTON, Director
No. 50
national standard hose couplings and fittings
FOR PUBLIC FIRE SERVICE
Issued November 25. 191-4
WASHINGTON
GOVERNMENT PRINTING OFFICE
1914
ADDITIONAL COPIESOF THIS PUBLICATION MAY BE PROCURED FROM
THE SUPERINTENDENT OF DOCUMENTSGOVERNMENT PRINTING OFFICE
WASHINGTON, D. C.
AT10 CENTS PER COPY
V
NATIONAL STANDARD HOSE COUPLINGS AND FITTINGS FORPUBLIC FIRE SERVICE
CONTENTS
I. Introduction
1. Diversity of standards
2. Cooperation toward standardization
II. Historical summary1. Origin of the movement2. Conventions of fire engineers, etc
3. Cooperation of the Department of Commerce and Labor
4. Reports of committees of national societies
III. The national standard as adopted by fire protection organizations
Committee report to the American Society of Mechanical Engineers
IV. Present status of the national standard fire-hose coupling
1. Cities at this date using the national standard
2. Transition method
3. Lists of organizations which have approved the national standard fire-hose
couplings and the operating nut for hydrant stems
(a) Standard fire-hose couplings
(£>) Specifications for operating nut on hydrant stems
V. Summary
Page
3
3
4
4
4
4
7
9
10
10
i7
i7
20
21
21
21
22
I. INTRODUCTION
1 . DIVERSITY OF STANDARDS
For many years there has been a great diversity in the dimensions of
fire-hose couplings and hydrant connections. The appalling loss during
certain disastrous fires such as the Boston fire in 1872 and the Baltimore
fire in 1904 clearly demonstrate and emphasize the necessity for uniformity
in fire-hose connections, fire departments of other cities frequently responding
to calls for aid only to find themselves, upon arrival, unable to render
assistance because their engine and hose connections would not couple upwith outlets of local fire hydrants which were of a different type anddiameter. The great advantages that would result from a standardization
of hose connections has always been recognized by those intimately con-
nected with fire departments and organizations devoted to the cause of fire
3
4 Circular of the Bureau of Standards
protection, but the absence of coordinated effort among the fire departments
and other authoritative organizations having control or supervision of such
utilities has for many years retarded any considerable effort toward standard-
ization of these highly important adjuncts in public fire protection.
2. COOPERATION TOWARD STANDARDIZATION
Dining the past io years, however, owing to persistent concentration
of effort and vigorous action of the special committee on hose couplings and
hydrant fittings appointed by the National Fire Protection Association,
this necessary coordination has been materially advanced through the
joining together of all of the more important national organizations which
are concerned with fire protection and prevention, in a serious endeavor to
terminate the existing confusion by concurrent approval and adoption of the
“national standard hose couplings and hydrant fittings.”
II. HISTORICAL SUMMARY1. ORIGIN OF THE MOVEMENT
The real movement for standardization of fire-hose couplings may be
said to date back at least to the great Boston fire of 1872, referred to above.
Some of the neighboring cities, profiting by the experience gained at this
fire, adopted what was known as the Roxbury thread coupling, which was
the Boston standard at that time.
2. CONVENTIONS OF FIRE ENGINEERS, ETC.
The matter of standard hose couplings was brought before the first
convention of fire chiefs, held at Baltimore in 1873. At this convention,
which was called “The Convention of Fire Engineers,” the following resolu-
tion was offered by Fire Chief James Hill, of Cleveland:
Whereas experience has shown that the fire departments of the country should be provided
with a universal or standard coupling for hose and fire hydrants, so that when a city or town calls
for aid, in case of large fires or conflagrations, from another city or town, each department can act
in unison with the other : Therefore be it
Resolved That a committee be appointed by this convention to take under consideration andreport back to this convention the practicability of adopting a standard coupling of some kind
to be used by all fire departments throughout the United States.
This resolution after adoption was referred to a committee which
reported as follows:
In our opinion a uniformity of coupling should be adopted throughout the United States, so
that one city when called upon could lend aid to another when needed, and would recommend
National Standard Hose Couplings 5
that all cities purchasing couplings and hydrants should adopt a uniform standard, and for the
purpose of avoiding expense in changing those now in use would recommend the adoption of
reducers and expanders.
The second convention of fire engineers, held at St. Louis in 1874,
adopted a resolution urging that all fire departments install standard coup-
lings, and that adapters be provided for use when necessary to assist at
places having no standard equipment.
In 1875 the National Association of Fire Engineers at its third conven-
tion which was held in New York City adopted the following:
Your special committee, appointed to report upon a uniform thread and dimensions of hose
couplings, after full and mature deliberation recommend that the inside diameter of couplings
should be 2^ inches in the clear; that the outside be $yi inches, exclusive of the thread and
including the thread inches, and that the number of threads be eight to the inch. We also
recommend in this connection the adoption by fire departments of the adjustable thread couplings.
At the convention of 1 876 at Philadelphia the proceedings show that when
topic No. 5, covering report on hose couplings, was called for presentation, a
resolution was offered and adopted “that the report on hose couplings be
laid on the table, and that adopted at New York be the standard which this
association recommends.” Later in the session the report was taken from
the table, recommitted and read; this report was somewhat lengthy, recom-
mending in part: First, “that this convention, so far as lay in its power, do
adopt as the standard thread for all 2^2 -inch hose couplings throughout the
country; outside diameter male couplings 33^-inch outside of thread; num-ber of threads to the inch 8; angle of thread to be a ‘
V\” Second, “Wewould further recommend that every department commence at once and
order all new hose with couplings having this standard thread.’
’ Third,
recommended that an “ample supply of reducing couplings, both male andfemale, ” be supplied in each department.
This report, with an added suggestion that the committee be continued,
was duly adopted. As may be noted, the action taken at this time was in
the nature of a confirmation of that taken in 1875.
In 1878 the following resolution was adopted by the association at its
sixth convention held in Cleveland
:
The report of the committee adopted in Philadelphia, September, 1876, as to the advisability
of adopting a uniform standard thread for hose couplings recommended the following thread as
standard, viz, for 2^-inch hose couplings; outside diameter of male coupling 3^ inches and 8
threads to the inch. Said recommendation has not been carried out on account, it is claimed, of
impracticability. Be it resolved, that a committee of five be appointed to consider the question
of a standard uniform thread for hose couplings for fire departments; that such committee be
instructed to consult with manufacturers of couplings, and obtain from them samples of couplings
6 Circular of the Bureau of Standards
and suggestions as to the best thread to be adopted as standard and report at the next convention
of this association, with a further recommendation that a suitable bill be drafted and submitted to
Congress, praying that the standard hereafter adopted by this association shall be enforced in all
fire departments, under suitable penalties.
The committee appointed, as a result of the above action, submitted a
lengthy report at the seventh .convention held at Washington in 1879.
This report recommended that the standard coupling for 2%-moh hose should
have 6 threads to the inch. The reasons for this recommendation are
given in the following extract from the report
:
The first object which your committee had in view was to ascertain the thread least liable to
become damaged, the most easily handled and the least likely to become useless from fouling,
as with dirt, gravel, etc. They have concluded to recommend the thread which, in their belief,
most nearly accomplishes these desired ends, namely, six to the inch, and have given such meas-
urements for the working portion of the coupling as will insure metal enough being used in the
right place which will obviate, to a great degree, the bending and jamming of couplings, rendering
them now so frequently useless. Other things being equal, the shortest coupling is undoubtedly
the best, allowing, as it does, the more perfect reeling of the hose, allowing of its fitting closer on
small spools and with less dead weight, giving the same results.
This report was unanimously adopted, as previous ones had been, thus
placing the association on record as having adopted specifications for fire-
hose couplings not in conformity with its past action in such matters. The
following year a resolution was adopted urging the universal adoption of
this coupling.
The proceedings of 1880 show the following resolution, which also was
“unanimously adopted”—“that this association can not too strongly urge
upon the associations of firemen and upon the Chief Engineers of the country
the importance of using every means at their command to secure a uniform
thread for hose couplings.” An appeal to the various legislatures was then
made “to enforce the adoption of the standard thread recommended by
this association at its 7th annual convention [1879].”
Again, in 1883, at the New Orleans convention, a set of resolutions
was adopted showing the continued inaction of the association members in
this matter.
During the next seven years it seems that but little was accomplished
toward the actual establishment of a national standard for fire-hose couplings.
The proceedings of the convention held in Detroit in 1890 show that
C. A. Tandy read a paper on standardization of hose couplings and pre-
sented resolutions as follows: “Resolved, that there should be a single
standard thread for 2 J^-inch couplings, which should be universal through-
out the United States. Resolved, that this convention considers the exact
National Standard Hose Couplings 7
size, or form or pitch or diameter of this thread, of far less importance than
the question of having some one thread which shall be standard,” and in
support of the resolutions suggested “that a committee of members
should be appointed, and instructed to prepare a standard thread for 2%-
inch hose couplings, and that this committee shall limit their investigations
to the dimensions and form of the thread itself, without specifying as to
the dimensions or the weight of the rest of the coupling.” This paper was
accepted and a committee was appointed “in accordance with the sugges-
tions of the paper just read, so that a standard thread can be adopted,
and reported at the next meeting.”
In accordance with this resolution a special committee, with Ex Chief
C. A. Landy, of Elmira, N. Y., as chairman, submitted to the association at
the convention held in Springfield, Mass., in 1891, a comprehensive report
covering the various designs of different sizes of threaded couplings used by
fire departments throughout the country. This report recommended that
the standard coupling for 2^-inch hose should have an outside diameter of
3^6 inches, with 7^ threads to the inch instead of 6 threads, with outside
diameter of 3-3V inches, as agreed upon by the association in 1879. In
addition to the adoption of this specification for the 2^-inch coupling, the
special committee submitted specifications for the dimensions of couplings
for 2^s, 2*4, 3, 3%, 4, 4pi, 5, and 6 inches inside diameter, with 8 threads to
the inch in each case. This report was duly put to vote and adopted bythe association.
3. COOPERATION OF THE DEPARTMENT OF COMMERCE AND LABOR
In April, 1904, the Merchants & Miners’ Transportation Co. requested
the Secretary of the Department of Commerce and Labor to have the mat-
ter of fire-hose couplings investigated, with the object of making useful
suggestions relative to the much-needed standardization. It was requested
that the department even go so far as to suggest legislation on the subject.
Attention was called to certain facts, which may be summarized briefly
as follows
:
1 . There was a lack of uniformity in fire-hose couplings throughout the
country.
2. At the Baltimore fire, in February, 1904, neither the Washington,
the Philadelphia, nor the New York fire engines which had been sent to
render assistance could make connections with the local fire hydrants.
8 Circular of the Bureau of Standards
3. The Merchants & Miners’ Transportation Co.’s ships which touched
at Boston, Providence, Philadelphia, Baltimore, Newport News, Norfolk,
and Savannah were forced to carry five different hose connections.
4. The United States Government itself had several different standards.
The matter was referred by the Secretary of Commerce and Labor to
the Bureau of Standards, and this Bureau at once communicated with the
fire departments of different cities to collect data upon the various stand-
ards used throughout the country with the view of making suggestions
that would tend to bring about uniformity.
As a result of this investigation the Bureau found that great confusion
existed, and that couplings with 6, 7, 7^2, and 8 threads per inch were used
for the ordinary 2 >£-inch fire hose in different cities. Moreover, by measuring
numerous couplings submitted to this Bureau it was found that in some cases
even those couplings having the same number of threads per inch would
not interchange, owing to differences in outside diameter.
The United States Navy standard coupling for 2^-inch fire hose wasfound to have 7 threads per inch and an outside diameter of 3-^- inches.
In the nature of the case the War Department at local posts had to
conform to local standards as long as these varied, and a uniform standard
could hardly be expected except after national standardization.
The Steamboat-Inspection Service found great need of a uniform stand-
ard hose connection for the merchant marine, so that the boats when not
in dock could interconnect their hose systems in case of fire. It was deemed
less necessary to connect with pier hydrants, since the port fire companies
could act independently of the ship fire apparatus in fighting fires in vessels
in port. For this reason, and in the absence of a national standard, a more
immediate standardization was found practicable on the basis of the ‘‘ iron
pipe (Briggs) standard” then in common use.
It was reported by the chief of the Chicago fire department that he
often had difficulty in connecting his engines to the fire hydrants of adjacent
towns, there being no uniformity as to couplings.
In New Orleans it was said that each fire company carried no less than
two adapters because of lack of uniformity in the fire-hose connections of
that city.
At this time the disastrous fire at Baltimore in 1904 had caused renewed
interest to be taken in the matter of standardization of hose couplings, andthe firemen’s associations joined with the National Fire Protection Associa-
National Standard Hose Couplings 9
tion in active endeavor to bring about the country-wide adoption of an
acceptable standard for these highly important public utilities.
It was apparent that any standard that might be agreed upon would
entail more or less expense upon those cities that adopted the standard
couplings but whose existing equipment was radically different from the
proposed standard. New York City, for example, carrying an enormous
equipment of fire-hose connections having 8 threads per inch, might not
be inclined to consider a change to any other standard. St. Louis, on the
other hand, whose standard was 6 threads per inch, willingly adopted the
national standard which had been agreed upon.
The opinion was held by some, including the Bureau of Standards,
that, from a mechanical standpoint for strength and general efficiency, a
standard of 6 threads per inch was to be preferred for the 2pi-inch coupling.
However, in view of the fact that the majority of cities used 7, 7^, or 8
threads per inch, the consensus of opinion seemed to be in favor of a national
standard having 7F2 threads per inch. Advocates of the 7^-thread standard
urged that a large proportion of the existing equipment of cities having
couplings with 7, 7^, or 8 threads to the inch could, at small expense, be
made interchangeable with the proposed 7^-thread national standard, bythe use of an adjustable tap or die.
4. REPORTS OF COMMITTEES OF NATIONAL SOCIETIES
At a conference of the committees of the National Fire Protection
Association and American Water Works Association, held in New YorkCity April 24, 1905, it was resolved that 7X threads per inch should be
recommended as a national standard for 2^-inch fire-hose couplings.
At West Baden, Ind., on May 9, 1905, the American Water WorksAssociation adopted unanimously the report of its committee on fire insur-
ance, recommending likewise the standard of 7^ threads per inch for 2%-inch fire-hose couplings.
The National Fire Protection Association at a meeting in New YorkCity May 23, 1905, adopted the report of its committee on standard threads
for hose couplings. This report included specifications for fire-hose coup-
lings of 2^, 3, 3/"2> and diameter in which 7X threads per inch
was also recommended for 2^-inch couplings.
At the annual convention of the International Association of Fire
Engineers, held at Duluth, August, 1905, in the report of a special corn-
60638 0—14 2
IO Circular of the Bureau of Standards
mittee appointed the preceding year at Chattanooga, the adoption of 6
threads per inch as the standard for 2^-inch couplings was favored. During
a lengthy discussion of the subject at this conference, this report met with
strong opposition. In an address by F. M. Griswold, chairman of the
National Fire Protection Association committee, the national standard for
2F2 -inch hose couplings having 7^ threads to the inch was indorsed and rec-
ommended for adoption as being the most practicable standard, for the
following reasons:
There can be no justifiable objection to the use of the 7% threads to the inch on 2^-inch fire-
hose couplings; it is mechanically correct and at the same time will prove adaptable to the largest
number of equipments in the country; hence, it will prove the cheapest and most available device
which could be conceived in making the change from inharmony to harmony in all fire depart-
ments. Furthermore, the standard here advocated is essentially the same as that accepted byyour association at its annual convention held in Springfield, Mass., in 1891. (Tandy committee
report.)
The association then adopted as its standard for 2 -inch hose the 7-^thread coupling as presented by the National Fire Protection Association,
and at the convention held at Dallas, Tex., October, 1906, reaffirmed the
action taken at Duluth, and made its record complete by adopting the
national standard specifications covering couplings of 3 and 3^ inches
inside diameter, each to have 6 threads to the inch, and a 43^-inch coupling
having 4 threads to the inch, and at the same time approved the specifica-
tions for a standard nut on hydrant stems and nozzle caps.
III. THE NATIONAL STANDARD AS ADOPTED BY FIRE-PROTECTIONORGANIZATIONS
COMMITTEE REPORT TO THE AMERICAN SOCIETY OF MECHANICAL ENGINEERS
The American Society of Mechanical Engineers, at its annual meeting
in New York City, December 3, 1913, voted unanimously to adopt the report
of its subcommittee which recommended the national standard specifica-
tions as formulated by the committee of the National Fire Protection Asso-
ciation. In this report the national standard is treated in a very clear and
comprehensive manner, as follows:
REPORT OF THE SUBCOMMITTEE ON FIRE PROTECTION ON NATIONAL STANDARD THREADSFOR HOSE COUPLINGS FOR FIRE SERVICE.!
i. In considering the problem of the adoption of a hose-coupling thread, it became a question
whether to advise specifications which would show the extreme of mechanical strength without
1 This report (adopted Dec. 3, 1913) was signed by the members of the subcommittee on fire protection: John R. Free-
man, chairman; E. V. French, vice chairman; Albert Blauvelt, F. M. Griswold, H. F. J. Porter, T. W. Ransom, and I. H.Woolson.
1
1
National Standard Hose Couplings
reference to the preponderance of designs of a less theoretical value in general use, or to seek
for the introduction of a threaded coupling, the characteristics of which would most closely accord
with the majority class, and at the same time prove to be an intermediary of such capacity as to
accommodate itself to interchange with a large proportion of couplings not exactly conforming to
its dimensions.
2. Accepting the latter method of procedure as promising the widest measure of success, acommittee of the National Fire Protection Association undertook a special investigation of existing
conditions, using the report of a special committee under C. A. handy, chairman, in 1891, as a
basis. After securing much additional data they became convinced of the practical value of the
specifications named in that report,, and submitted as a standard coupling for 2j^-inch hose, oneshowing a diameter of 3^6- inches over male end thread with 7^ threads to the inch, by the use of
which it was practically demonstrated that couplings ranging in outside diameter from 3-^ inches
to 3^4 inches, with either 7, 7^, or 8 threads to the inch, could be so modified as to couple up in
service with this suggested standard, and thus render over 70 per cent of the 2^-inch .couplings
known to be in use conformable to the proposed standard at small expense as to time, money, or
labor.
3. In elucidation of the essential features of this standard it was deemed wise to formulate
specifications covering 2%, 3, 3^, and 4^ inch hose couplings, the inside diameters of whichwere to be in conformity with the sizes named, specific details relating to each of the standard
sizes being shown in the printed specifications, as follows:
SPECIFICATIONS FOR HOSE COUPLINGS
Inside diameter of hose, inches
Number of threads per inch
Male Couplings
Outside diameter of thread finished, inches
Diameter at root of thread, inches
Clearance between male and female threads, inch
Total length of threaded male end, inches
2H 3 3X 4X7K 6 6 4
3rs 3Vs 4M 5%2. 8715 3. 3763 4. 0013 5.3970
0.03 0.03 0.03 0. 05
1 1X IX mThe above are to be of the 60-degree V-thread pattern, with 0.01 inch cutoff the top of thread
and 0.01 inch left in the bottom of the valley in 2^-inch, 3-inch, and 3>£-inch couplings and 0.02
inch in like manner for the 4l^-inch couplings, and with %-inch blank end on male part of coupling
in each case. Female ends are to be cut yi inch shorter for endwise clearance, and they should also
be bored out 0.03 inch larger in the 2>£-inch, 3-inch, and 3^-inch sizes, and 0.05 inch larger in the
4^-inch size, in order to make up easily and without jamming or sticking.
SUGGESTIONS FOR CONVERTING NONSTANDARD COUPLINGS FOR SERVICEABLE INTERCHANGEWITH THE NATIONAL STANDARD
4. The fact that the national standard has received the unqualified approval of all the leading
organizations concerned with water supplies and fire departments, forms a strong argument for
its early adoption in all localities. In order to demonstrate that the question of expense in chang-
ing over to the standard is less serious than is often imagined, the following suggestions, contemplat-
ing a gradual change from nonstandard to full-standard equipment, are submitted in the belief that
the comparatively light cost of such a procedure should not delay so important and beneficial an
improvement in any town or city. These suggestions are intended to apply to the period of
transition which must of necessity precede complete standardization.
5. Considering first the 2Flinch hose couplings and hydrant outlets in general use, we suggest
that
—
(a) Contracts for new hydrants should specify that the nipples be equipped with the national
standard hose thread.
2 Circular of the Bureau of Standards
(b) Existing hydrant nipples should be replaced by standard nipples. This may readily be
accomplished at comparatively small expense through the use of a special device or tool now on
the market; or as a less satisfactory method, the nipples may be equipped with adapters having
standard thread on the outboard end. These adapters should be fastened in position so as not to
be readily removable.
(c) Fire-engine nipples should be provided with adapters having standard thread on the
outboard end. These should be secured in place so as not to be readily removable.
(d
)
In many cities and towns where the 2^-inch hose couplings, as well as the nipples on
hydrants and fire-engine outlets, show 7, 7^2, or 8 threads to the inch, wide variations occur in
outside diameter over the thread of the male end of the couplings. If such variation does not
exceed T2 inch below 3^ inches (equaling 3-^5 inches), or if the variation does not exceed -fa inch in
excess of 3x5 inches (equaling 3-^ inches),it becomes feasible to render both male and female coup-
lings adaptable for interchange with the standard 2_^-inch hose couplings (measuring 3^ inches
outside diameter on the male end and 7X threads to the inch) by the use of an adjustable tap for
the female end of the coupling or an adjustable die for the male end of the coupling, either tap
or die having the same number of threads to the inch as the coupling or nipple to be treated.
Any deviation within the limits named may readily and cheaply be overcome without the
removal of couplings from the hose or of the nipples from the hydrant or engine.
It may be well to emphasize the fact that in adapting the 7 and 8 thread coupling to inter-
change with the national standard of 7% threads it is thus intended to provide an interim measure
to serve until the standard has been fully installed, the reduced coupling being discarded as the
hose wears out and all new hose purchased to be fitted with the standard couplings, thus securing
a gradual and inexpensive method of standardizing the whole equipment of the city.
(e) Couplings of new’ hose, whenever purchased, should be the national standard, and speci-
fications under which new hose is purchased should always include a clause to this effect.
(/) Until all hose on hand has been provided wdth standard couplings or has been converted
as suggested under paragraph No. 4 a sufficient number of adapters should be carried on eachhose wagon, so that the unconverted hose can be coupled up with the standard outlets of hydrantsor fire engines.
(g) In view of the fact that 3-inch hose is coming into more general use, it is deemed advisable
that such hose should be fitted with 2>^-inch couplings having threads which conform to those on2^2-inch hose already in use.
6. It is believed that the total expense involved in a complete change from existing to standardconditions will not exceed the cost of the operation described in (b ), (c), and (/), and that no further
steps will be needed in any city save to order all new equipment of every description to be suppliedwith national standard threads.
7. It isof course clear that a similar lineof action as noted in (a), (b), (c ), (e), and (/) should befollowed in the case of the couplings and hydrant outlets pertaining to the suction hose of theengines. While the cost wdll be greater per outlet, the outlets to be thus equipped will be muchless in number than for the 2>£-inch connections.
8. While the extremes of diameter in couplings as herein indicated appeal to this committeeas being conservatively reliable for the treatment recommended, many instances of adaptationhave been recorded wherein the deviations treated range as low as 3 inches and as high as 3-^inches wdth satisfactory results in service, thus strongly emphasizing the value of the “nationalstandard” as an intermediary’ or accommodation thread coupling of wide adaptability.
9. It is recommended that the Higbee style of cutting the thread be adopted hereafter in
order to facilitate speed in coupling up and in avoiding crossing.
10. These specifications, covering the essential features for hose couplings and hydrant fittings
for public fire service, have been agreed upon in joint conference with accredited representatives
National Standard Hose Couplings 13
of a number of organizations and associations interested in or controlling this class of work. They
will be known as the “national standard,” and to date have been adopted by the following
associations: American Public Works Association, American Society of Municipal Improvements,
American Waterworks Association, International Association of Fire Engineers, League of Amer-
ican Municipalities, Minnesota State Firemen’s Association, National Board of Fire Underwriters,
National Fire Protection Association, National Firemen’s Association, New England Waterworks
Association, North Carolina State Firemen’s Association, Pennsylvania Watenvorks Association,
Virginia State Firemen’s Association.
National Standard Hose Coupling
Inches Centimeters
Inside diameter of hose coupling 2. 5000 6. 3500Blank end of male Dart 0. 2500 0. 6350Outside diameter of thread finished 3.0625 7. 7788Diameter of root of thread 2.8715 7. 2936Clearance between male and female threads 0. 0300 0. 0762Total length of threaded male end 1.0000 2.5400Number of threads per inch 7J4Pattern of thread 60°VCut off at top of thread 0.01 of an inchLeft in bottom of valley 0.01 of an inchFemale end to be cut 0.125 of an inch shorter than male end for endwise clearance.
Fig. 2 .—The 2%-inch coupling(section
)
14 Circular of the Bureau of Standards
National Standard Hose Coupling
Inches Centimeters
Inside diameter of hose coupling 3. 0000 7. 6200Blank end of male part 0. 2500 0. 6350Outside diameter of thread finished 3. 6250 9. 2075Diameter of root of thread 3. 3763 8. 5758Clearance between male and female threads 0. 0300 0. 0762Total length of threaded male end 1. 1250 2. 8575Number of threads per inch 6Pattern of thread .60°VCut ofi at top of thread 0.01 of an inchLeft in bottom of valley 0.01 of an inchFemale end to be cut 0.125 of an inch shorter than male end for endwise clearance.
Fig. 3.—The 3-inch coupling (section
)
National Standard Hose Couplings 15
National Standard Hose Coupling
Inches Centimeters
Inside diameter of hose coupling 3.5000 8. 8900Blank end of male part... 0. 2500 0. 6350
10. 7950Outside diameter of thread finished 4. 2500Diameter of root of thread 4. 0013 10. 1633Clearance between male and female threads 0. 0300 0. 0762Total length of threaded male end 1.1250 2. 8575Number of threads per inch 6
Pattern of thread 60°VCut off at top of thread 0.01 of an inchLeft in bottom of valley 0.01 of an inchFemale end to be cut 0.125 of an inch shorter than male end for endwise clearance.
Fig. 4 .—The 3%-inch coupling (section
)
i6 Circular of the Bureau of Standards
National Standard Hose Coupling
;
Inches Centimeters
Inside diameter of hose coupling 4. 5000 11. 4300Blank end of male part 0. 2500 0. 6350Outside diameter of thread finished 5. 7500 14. 6050Diameter of root of thread 5. 3970 13. 7084Clearance between male and female threads 0. 0500 0. 1270Total length of threaded male end 1.3750 3 4925Number of threads per inch 4
Pattern of thread 60°VCut off at top of thread 0. 02 of an inchLeft in bottom of valley 0.02 of an inchFemale end to be cut 0.125 of an inch shorter than male for endwise clearance.
Fig. 5 .—The 4pi-inch coupling (section
)
National Standard Hose Couplings 17
IV. PRESENT STATUS OF THE NATIONAL STANDARD FIRE-HOSECOUPLING
Since the first publication of the specifications for the national standard
in 1905 by the committee of the National Fire Protection Association
there has been no serious criticism of these specifications, no modification
or substitute has been suggested, nor has any organization refused approval.
1. CITIES 2 AT THIS DATE USING THE NATIONAL STANDARD FIRE-HOSE COUPLING
In the following named cities and towns the national standard fire-hose
coupling is in use. Incorporated therewith is a list' of places in which facili-
ties are provided for adaptation to interchange with the national standard.
The list is arranged alphabetically by States. The data were furnished byfire chiefs or waterworks officials, except where followed by an asterisk (*).
Type shown in small capitals indicates new standard equipment or adapta-
tion to interchange.
Alabama.—Abbeville, Auburn,* Dothan,* Eufala,* Huntsville, Laverne, Mobile,* NewDecatur, Opelika, Samson,* Toney.*
A laska.—Skagway
.
Arizona.—Grand Canyon* (A., T. & S. F. R. R.), Tucson.
Arkansas.—Benton,* De Queen,* Texarkana.
California.—Alameda, Bakersfield, Berkeley, Fruitvale, Hanford, Monrovia, Napa, Oakland,
Palo Alto, Pasadena, Petaluma, Pomona, Redlands, Riverside, San Diego, San Francisco, San
Mateo, Santa Ana, Santa Barbara, Santa Clara, Santa Monica, Stockton, Watsonville.
Canada.—Montreal,* Port Hope,* St. Anne,* St. Joseph.*
Colorado.—Antonito,* Boulder, Durango, Grand Junction,* Montrose, Salida, Trinidad.
Connecticut.—Ansonia, Branford, Buck,* Danbury,* Derby (waterworks)*. East Hartford,
Enfield, Greenwich, Groton, Meriden, Naugatuck, New Britain, Newr London, Newton,* Nor-wich, Ridgefield, Rockville, South Norwalk, Torrington.
Delaware.—Bridgeville.*
Florida.—Daytona, Apalachicola,* Eustis,* Kissimmee,* Lake City, Lakeland, LakeWorth,* Miami, Palatka,* Palmetto,* Sebring,*.
Georgia.—Adel,* Albany, Athens,* Ashbume,* Atlanta, Govington,* Cordele*, Dalton,
Douglassville,* Hampton,* Hazlehurst,* Lagrange, Lyons,* Millen,* Monroe,* Pava,*
Perry,* Richland,* Sparks,* Sylvester,* Thomson,* Toccoa,* Valdosta, Vidalia,* Vienna,*
Willacoochee,* Winder.*Idaho.—Ashton,* Lewiston, Nampa,* Orchard,* Preston.*
Illinois.—Aurora, Beardstown, BelvtderE, Blue Island, Charleston, Chicago Heights, Dan-
ville, Dixon, East Moline, East St. Louts, Galena,* Galva, Granite City, Hoopeston, Jackson-
ville, Kankakee, Kewanee, Lake Zurich,* Lemont, Litchfield, Maywood, Moline, Murphysboro,
New Athens,* Nokomis,* Normal,* Ottawa, Pana, Pekin, Peoria, Princeton, PrincevillE,*
Quincy,* Rockford, Rock Island,* Sheffield,* Silvts, Sterling, Toulon.*
2 The list of cities and towns given has been furnished by F. M. Griswold, member of the committee on standard hose
couplings, National Fire Protection Association.
i8 Circular of the Bureau of Standards
Indiana.—Chesterton,* Converse,* Crawfordsville, Cromwell,* Elkhart, Evansville, Ham-mond,* Otterbein,* Owensville,* Petersburg,* Plainfield,* Sheridan,* Sullivan,* Union City.
Iowa.—Blanchard,* Charles City, Clinton ,* Davenport,* Ellsworth,* Fort Dodge, Iowa
City, Keokuk,* Lost Nation,* Marshalltown, Osceola,* Ottumwa, Paton,* Sioux Falls,* Wash-
ington, Waterloo.*
Kansas.—Bucklin City,* Burden,* Chapman,* Cherryvale, Clearwater,* Coffeyville,
Delphos,* Emporia, Englewood,* Forest Lake,* Fowler,* Galena,* Glenn Elder,* Good-
land,* Horton,* Iola, Kensington,* Junction City, Ea Cynge,* Madison,* Mulberry,* Ox-
ford,* Parsons, Pittsburg,* Sedan,* Sedgewick City,* Wakeeney,* Wellington, Westmore-land,* Winfield.
Kentucky.—Ashland, Covington, Cynthiana, Henderson, Hickman,* Newport, Owensboro.
Louisiana.—Lake Arthur,* Shreveport, Zachary.*
Maine.—Androscoggin Mills,* Augusta, Brewer, Brunswick, Calais, Danforth,* Eastport, Ells-
worth, Fort Fairfield, Fort Kent,* Lincoln,* Presque Isle, Rockland, Saco, South Lincoln,*
Stonington,* Waterville, Winthrop.*
Maryland.—Berlin,* Cambridge, Cumberland, Oakland.*
Massachusetts.—Abington, Adams, Agawam,* Amesbury,* Arlington,* Barnstable,* Beverly,
Blandford,* Bridgewater, Brockton, Brookline, Cambridge,* Cherry Valley,* Chicopee, Clin-
ton,* Danvers,* Dedham, East Hampton, Enfield,* Everett, Fitchburg, Framingham, Franklin,
Gloucester, Greenfield, Hardwick,* Holyoke, Lenox,* Lenox Dale,* Leominster, Malden,
Marblehead, Melrose, Methuen, Milford,* Milton, Natick, Newburyport, Newton, North Adams,Northampton,* Northbridge,* Oxford,* Palmer,* Peabody, Pittsfield,* Revere, Rochdale,* Rus-
sell,* Somerville, South Adams,* Springfield, Stockbridge,* Stoneham, Swampscott, Taunton,
Turners Falls,* Uxbridge,* Ware, Wareham,* Watertown, Webster, Westboro, Westfield,*
West Groton,* West Springfield, Weymouth, Whitman, Winchester, Winthrop, Worcester,
Worthington.*
Mexico.—Pearson.*Michigan.—Alpena, Ann Arbor, Battle Creek, Benton Harbor, Berrien Springs,* Big
Rapids, Charlotte, Cheboygan, Frankfort,* Galesburg,* Gagetown,* Grand Haven, GrandRapids, Holland, Ishpeming, Jackson, Kalamazoo, Lansing, Monroe, Mount Pleasant, Petoskey,
Port Hope.*
Minnesota.—Anoka, Brainerd, Colerains,* Eveleth, Fergue Falls, Hastings,* Hibbing,
Moorhead, Newmarket,* Red Wing, Virginia.*
Mississippi.—Ackerman,* Canton,* Columbia,* Friars Point,* Goodman,* Greenville,*
Hattiesburg, Iuka,* Jackson, Lexington,* McComb, Ocean Springs,* Osyka,* Shaw,* Vicks-
burg, Yazoo City.
Missouri.—Aurora, Brookfield, Carthage, De Soto, Dexter,* Fulton, Hannibal,* Harrison-
ville,* Jefferson City,* LEE Summit,* Malden,* Marceline City,* Moberly,* MountainGrove,* Neosho, St. Louis, Sedalia, Springfield, Webb City.
Montana.—Billings, Bozeman, Great Falls, Helena,* Kalispell, Livingston, Malta,* Man-hattan,* Shelby,* Townsend.*
Nebraska.—Blair,* Bruning,* Decatur,* Grand Island, Hastings, Havelock,* Heming-ford,* Jansen,* Lincoln,* Mitchell Village,* Nebraska City, Nelson,* Oakdale,* Ogalalla,*
Omaha, Petersburg,* Plattsmouth, Yutan.*Nevada.—Reno
.
New Hampshire.—Berlin, Claremont, Derry, Exeter, Franklin, Greenville,* North Walpole,*Rochester, Union.*
National Standard Hose Couplings i9
New Jersey.—Bridgeton, Cranbury,* Flemington, Hackensack, Harrison, Highland,*
Lambertville, Mendham,* Milford,* Mount Tabor,* New Brunswick, Newton,* Oxford,* Pine
Plains,* Point Pleasant,* Pompton Lake,* Stockton City,* Tenafly,* Trenton, Verona.
New Mexico.—Clovis,* PortalEs,* Raton.
New York.—Adams, Alexandria, Antwerp, Auburn,* Avon, Baldwinsville,* Ballston Spa,
Batavia, Bath, Bergen,* Binghamton, Black River,* Brownsville,* Camillus,* Canandaigua,
Candor,* Carthage, Catskill,* Cleveland, Clifton Springs,* Clyde,* Comstock Prison,* Constable,
Cooperstown,* CopEnhagan,* Coming, Coxsackie,* Depew,* Despatch,* Dexter,* Dunkirk,
East Aurora,* East Syracuse,* Endicott, Franklin,* Geneseo,* Geneva,* Gilbertsville,* Glen
Cove, Gouvemeur, GrEENE,* Greenwich,* Groton,* Halcottsville,* Hamburg,* Hamilton,*
Hancock,* Hartwick,* Hoosick Falls, Hudson, Huntington, Index,* Lancaster,* Lestershire,*
Liberty,* Livonia,* LowvillE,* Lyons Falls,* McGrawville,* Manhassett,* Manlius,* Matteawan,
Mechanicsville,* Medina, Minetto,* Montour Falls, Morrisville,* Mount Kisco,* Mount Morris,
Newburg, Niagara Falls,* Nichols,* Oneida, Owego,* Oxford,* Penn Yan, Phelps,* Philadelphia,
Pleasantville,* Port Byron,* Portchester, Poughkeepsie, Prattsburgh, Pulaski,* Rensselaer,
St. Johnsville,* Sandy Hill, Sherburne,* Shortsville,* Silver Bay,* Sloan,* Tonawanda,*Treadwell,* Troy,* Tully,* Valatie,* Varysburg,* Vernon,* Victory Mills,* Walton,* Water-
ford,* Waterloo, Watertown, Waterville,* Watkins, Webster,* Weedsport,* West Seneca,*
White Plains, Williamsville,* Windsor.*
North Carolina.—Andrews,* Black Mountain,* Bryson City,* Canton,* Elizabeth City,
Granite Falls,* Henderson, Hickory, Lenoir,* Marion,* Murphy,* North Wilkesbarre,*
Reidsville, Statesville, Washington.
North Dakota.—Grand Forks, Litchville,* Minot.
Ohio.—Berea, Boston,* Bowling Green,* Centerburg,* Columbus, Covington,* Delta,*
Dresden,* East Cleveland, Fairport,* Gabon, Hudson*, Kenton,* Lancaster,* Lorain, Low-Ellvtlle,* Mansfield, Marysville,* Montpelier,* NelsonvillE,* Norwood, Oberlin,* Otto-
ville,* Painesville, Piqua,* Put in Bay,* Richmond,* Sandusky,* Shelby,* Stoutsville,*
Utica,* Vermilion,* WausEON,* Xenia.*
Oklahoma.—Cherokee,* Chickasha, Clinton,* Colgate,* Edmond,* Fairview,* Hart-shorne,* Osage,* Ponca, Roff,* Soper,* Stillville,* Wanette.*
Ontario.—Bothwell,* Brampton.*
Oregon.—Albany, Haines.*
Pennsylvania.—Avalon, (Boro’),* Berlin,* Berwyn,*BiGLERViLLE,* Bridgeville,* Chambers-
burg, Coburn,* Conneaut Lake,* Conneautville,* Delaware Water Gap,* East Brady,* Fall
Creek,* Fort Palmer* Siding, FrackvillE,* Huntingdon, Johnstown, Kane,* Kensington,*
Lancaster, Midland,* Millersville,* Milton, Monogahela, Mount Pleasant, Nanticoke, North-ampton, North East, Olyphant, Pleasant Gap,* Port Royal,* Punxsutawney, Red Hill,*
Reynoldsville, Rochester, Salix,* Shamokin,* Shenandoah, Springdale,* Taylor, Uniontown,*
Warren, Westfield,* Wilkensburg, Wyoming.*Porto Rico.—Aibonito.*
Rhode Island.—Apponaug,* Bristol, Centerville,* Central Falls, East Greenwich,* East
Providence, Pawtucket, Providence, Valley Falls, Woonsockett.*
South Carolina.—Camden, Columbia, Darlington, Georgetown, Greenwood, Lancaster,*
Orangeburg.*South Dakota.—Edgemont,* Ipswich,* Kennebeck,* Oneida,* Hot Springs,* Redfield,
Watertown.
Tennessee.—Bristol, Cleveland, Columbia,* Cookeville,* Dyersburg, Jackson, Lawrence-
burg,* Nashville, Newport.*
20 Circular of the Bureau of Standards
Texas .—Arlington Heights,* Amarilla, Belton, Blooming Grove,* Bonham, Brownsville,
Childress,* Clebourne, Clifton,* Conroe,* Corsicana, Crockett,* Floresville,* Fort O'Connor,*
Hillsboro, Lubbock,* Marshall, Memphis,* Meridian,* Merkel;* Midland,* Midlothian,*
Mineola,* Naeagdoches,* Plain View,* Port Arthur, San Angelo, San Augustine,* Snyder,*
Texarkana, Texas City,* Tulia,* Tyler, Victoria,* Yoakum.
Utah .
—
Beaver City,* Bingham,* Clear Lake,* Coalville,* Fillmore,* Helper,* Honey-ville,* Levan,* Oquirrh,* Panguish,* Roosevelt,* Santaquin,* Springville,* TempleStation,* Vernal.*
Vermont.—Barre,* Bellows Falls, Brattleboro, Montpelier, North Troy,* Queechy,* St.
Albans, St. Johnsbury,* Winooski.
Virginia—Bedford City,* Franklin,* Harrisonburg,* Monterey,* Phoebus,* SouthBoston.
Washington.—Arlington,* Everett, Mount Vernon,* North Yakima, Olympia, PortTownsend, Seattle, Sedro Woolley,* Snohomish, Spokane, Tacoma, Thornwood,* Walla
Walla.
West Virginia .
—
Benwood, Keyser, Logan* (Coal Co.), North Fork,* Williamson.
Wisconsin.—Ashland, Beaver Dam, Beloit, Berlin, Cedarburg, Cudahy, Fox Lake,* Graf-ton,* Gratiot,* Hartford,* Kaukauna, La Crosse, Manitowoc, Menominee,* Milwaukee,Platteville, Rhinelander, Shawano,* Sheboygan, Stevens Point, Sturgeon Bay, Wausau,
WEYAUWEGA.*Wyoming.—Cheyenne, Rochester.*
2. TRANSITION METHOD
In changing from nonstandard to the standard equipment the methoddescribed in paragraph 5 (d) of the report of the subcommittee of the Ameri-
can Society of Mechanical Engineers (see p. 12 of this Circular) may be
followed. The results have been summarized by F. M. Griswold as follows:
In evidence of progress in this work, the record shows 73 cities or towns in which the national
standard has been put into service, either as new equipment or by adaptation of nonstandard
couplings to interchange with the standard, while seven installations include the complete sub-
stitution of national standard hose couplings and hydrant nipples in place of previously prevailing
nonstandard devices, under such conditions as to methods of procedure and cost of substitution
warranting brief mention. Notable among these is the city’’ of St. Louis, Mo., the pioneer in the
active promotion of standardization, where over 11,000 hydrant outlets and the couplings on manythousands of feet of fire hose were changed from a so-called “bastard” six thread to the standard,
all of the work being done by city employees, at an average net cost of $1 per hose coupling and of
$2.82 per hydrant outlet, the latter being principally of 4^2-inch steamer suction type, each of which
was laboriously chipped out by use of a cold chisel.
Closely following this action by St. Louis, the city of East St. Louis, which lies on the opposite
shore of the river in Illinois, brought its equipment into conformity with that of the larger city,
upon which it must call for aid in time of threatening disaster.
During the winter of 1910-11, the city of Springfield, Mass., discarded the “universal clutch”
coupling and substituted for it the national standard, changing 1,350 hydrants, some of which hadfour outlets, at the rate of from 50 to 100 outlet replacements per day, at an average net cost of $1
per outlet, giving credit for the old metal, sold at 9% cents per pound, and excluding cost of labor
performed by the regular force of waterworks employees. Couplings on 22,000 feet of hose were
changed by department employees at a like net cost of $1 each.
National Standard Hose Couplings 21
It is interesting to note that this work at Springfield was carried out in the winter season and
that it was accomplished without accident by the use of surprisingly simple and expeditious meth-
ods, in that, where hydrant nipples were leaded-in, the use of a 6-pound sledge proved an efficient
means for their removal, while in the case of screwed-in nipples an expanding wrench, entered from
the outboard end of the nipples engaged the operating lugs and permitted the easy removal of the
device, while the 4^-inch leaded-in suction nipples were melted out by the use of a plumber’s
gasoline blow torch, at the rate of 5 minutes per operation. This practical and unique demon-
stration of “how to do it” is commended as being worthy of serious consideration.
Following this action at Springfield, the contiguous cities of Chicopee, Holyoke, and West
Springfield each brought its equipment into conformity with the standard, at an expense probably
no greater than was that of the change at Springfield.
Shreveport, La., replaced the old-time “ Feyh ” coupling by installing the standard, but there
are no data as to method of procedure nor as to the cost of the operation.
The desirability of including in the national standard specifications for
hose smaller than 2y2 inches has been recognized, and the matter has been
brought before the hose-couplings committee of the National Fire Protection
Association. It is hoped that in the near future the national standard will
include the smaller couplings, at least for and 2 inch hose, which are
extensively used for inside work.
3. LISTS OF ORGANIZATIONS WHICH HAVE APPROVED THE NATIONAL STANDARDFIRE-HOSE COUPLINGS AND THE OPERATING NUT FOR HYDRANT STEMS
(a) STANDARD FIRE-HOSE COUPLINGS
The national standard fire-hose couplings have been approved by the
following organizations : American Society of Mechanical Engineers (adopted
the report of its subcommittee recommending the national standard),
American Public Works Association, American Society of Municipal Im-
provements, American Water Works Association, International Associa-
tion of Fire Engineers, League of American Municipalities, Minnesota State
Firemen’s Association, National Board of Fire Underwriters, National Fire
Protection Association, National Firemen’s Association, New EnglandWaterworks Association, North Carolina State Firemen’s Association,
Pennsylvania Waterworks Association, and Virginia State Firemen’s
Association.(b) OPERATING NUT ON HYDRANT STEMS
The importance of standardizing the operating nuts on hydrant stems
and caps is generally recognized.
In the national standard specifications under the title “Hydrant fit-
tings” is presented a standard for operating nut on hydrant stems, which
provides ‘‘ the operating nut for hydrant stems and nozzle caps to be pen-
tagon in shape and inches in diameter, measured from flat to point.”
22 Circular of the Bureau of Standards
These specifications were duly adopted as standard by the following
organizations, at places and dates named: American Society of Municipal
Improvements, Birmingham, October, 1906; American Waterworks Asso-
ciation, Boston, July, 1906; International Association of Fire Engineers,
Dallas, October, 1906; League of American Municipalities, Chicago, Sep-
tember, 1906; National Board of Fire Underwriters, New York, May, 1907;
National Firemen’s Association, Roanoke, Va., August, 1906; National
Fire Protection Association, New York, May, 1907; New England Water-
works Association, Boston, August, 1906; Virginia State Firemen’s Asso-
ciation, Richmond, Va., August, 1906.
V. SUMMARY1 . The movement for the adoption of standard fire-hose couplings dates
from the great Boston fire of 1872, which showed the impossibility of the
fire departments of adjacent towns acting in unison when provided with
the diverse sizes of hose fittings then prevailing.
2. The matter was taken up at the first convention of fire engineers,
in 1873, and was discussed at various conventions in succeeding years.
The resolutions gradually became more definite, although little was accom-
plished toward bringing about the desired changes until the agitation
received a new impetus from the Baltimore fire in 1904, when neither the
Washington, Philadelphia, nor New York fire engines, on their arrival, could
make connection with the local fire hydrants.
3. This condition led the Merchants & Miners Transportation Co. in
April, 1904, to request the Secretary of the Department of Commerce and
Labor to investigate the subject of fire-hose couplings. The Secretary re-
ferred the matter to the Bureau of Standards, and in the investigation
which followed, it was found that there was a great diversity in sizes and
threads of couplings throughout the United States. It was evident that
considerable expense would be involved in changing from one standard to
another, and therefore, at the conference of the committees of the National
Fire Protection Association and American Water Works Association, held
in New York City, April 24, 1905, the Bureau of Standards suggested that
either the thread most extensively used, or that thread which possessed the
greatest advantages in other respects, might be adopted. Following the
latter course, the conference resolved that 7^ threads per inch should be
recommended for 2%-inch fire-hose couplings. This thread was not re-
garded as necessarily an ideal standard, but was considered as a practicable
basis for unification under prevailing conditions.
National Standard Hose Couplings 23
4. At the annual convention of the International Association of Fire
Engineers at Duluth in 1905 this standard was adopted after lengthy dis-
cussion, and at Dallas in 1906 the convention reaffirmed the action taken
at Duluth and made its record complete by adopting the national standard
specifications covering couplings of 3 and 3F2 inches inside diameter,
each to have 6 threads to the inch and a coupling having 4 threads
to the inch.
5. Since then a dozen large organizations have adopted the national
standard. The report of the committee of the American Society of
Mechanical Engineers, adopted December 3, 1913, treats its present status
in a very clear and comprehensive manner, with suggestions for converting
nonstandard couplings for serviceable interchange with the national standard.
Up to 1914 the national standard had been put into service in 287 towns
and cities, either as new equipment or by adaptation of nonstandard
couplings to interchange with the standard.
S. W. Stratton,
Director .
Approved
:
William C. Redfield,
Secretary.